I'm going to use the big stuff because I WANT a huge amount of fluid ... it will act as a buffer in case of temperature spikes in one machine so that they don't affect the others. I plan on using a single 5ft length and taking a hole saw to it, fitting hose barbs directly into the sides. Using Y's and slip reducers for all of them would run upwards of $150 to make the thing, and it would be hard to mount due to its bulkiness.
So you're saying that this monstrosity might work? I'd be counting on the large water mass to serve as a buffer to equalize temps .... The reason I'm saying that slower flow through the rad might be better is that on this particular rad there is rapidly diminishing returns after 2gpm. after 4gpm, there might as well be no gain at all, due to the efficiency of this bastid. By running a 350 GPH, I estimate I'll get around 3-4 gpm through the rad, which puts it in that spec.
__________________
#!/bin/sh {who;} {last;} {pause;} {grep;} {touch;} {unzip;} mount /dev/girl -t {wet;} {fsck;} {fsck;} {fsck;} {fsck;} echo yes yes yes {yes;} umount {/dev/girl;zip;} rm -rf {wet.spot;} {sleep;} finger: permission denied
|